5NDA
| NMR Structural Characterisation of Pharmaceutically Relevant Proteins Obtained Through a Novel Recombinant Production: The Case of The Pulmonary Surfactant Polypeptide C Analogue rSP-C33Leu. | 分子名称: | rSP-C33Leu -RECOMBINANT PULMONARY SURFACTANT-ASSOCIATED POLYPEPTIDE C ANALOGUE- | 著者 | Venturi, L, Pioselli, B, Johansson, J, Rising, A, Kronqvist, N, Nordling, K. | 登録日 | 2017-03-08 | 公開日 | 2017-06-07 | 最終更新日 | 2024-06-19 | 実験手法 | SOLUTION NMR | 主引用文献 | Efficient protein production inspired by how spiders make silk. Nat Commun, 8, 2017
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7A0O
| NMR structure of flagelliform spidroin (FlagSp) N-terminal domain from Trichonephila clavipes at pH 5.5 | 分子名称: | Flagelliform spidroin variant 1 | 著者 | Sarr, M, Kitoka, K, Walsh-White, K.-A, Kaldmae, M, Landreh, M, Rising, A, Johansson, J, Jaudzems, K, Kronqvist, N. | 登録日 | 2020-08-10 | 公開日 | 2021-08-18 | 最終更新日 | 2024-06-19 | 実験手法 | SOLUTION NMR | 主引用文献 | The dimerization mechanism of the N-terminal domain of spider silk proteins is conserved despite extensive sequence divergence. J.Biol.Chem., 298, 2022
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7A0I
| NMR structure of flagelliform spidroin (FlagSp) N-terminal domain from Trichonephila clavipes at pH 7.2 | 分子名称: | Flagelliform spidroin variant 1 | 著者 | Sarr, M, Kitoka, K, Walsh-White, K.-A, Kaldmae, M, Landreh, M, Rising, A, Johansson, J, Jaudzems, K, Kronqvist, N. | 登録日 | 2020-08-09 | 公開日 | 2021-08-18 | 最終更新日 | 2024-06-19 | 実験手法 | SOLUTION NMR | 主引用文献 | The dimerization mechanism of the N-terminal domain of spider silk proteins is conserved despite extensive sequence divergence. J.Biol.Chem., 298, 2022
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2MFZ
| NMR structure of C-terminal domain from A. ventricosus minor ampullate spidroin (MiSp) | 分子名称: | Minor ampullate spidroin | 著者 | Otikovs, M, Jaudzems, K, Andersson, M, Chen, G, Landreh, M, Nordling, K, Kronqvist, N, Westermark, P, Jornvall, H, Knight, S, Ridderstrale, Y, Holm, L, Meng, Q, Chesler, M, Johansson, J, Rising, A. | 登録日 | 2013-10-24 | 公開日 | 2014-08-20 | 最終更新日 | 2024-05-01 | 実験手法 | SOLUTION NMR | 主引用文献 | Carbonic Anhydrase Generates CO2 and H+ That Drive Spider Silk Formation Via Opposite Effects on the Terminal Domains Plos Biol., 12, 2014
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